libsequence2 is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

Installation

Dependencies

Compilers

I'd appreciate success/failure reports on Intel's icc compiler. As it is no longer free for academic use, I'm not longer able to test it.

Simplest installation instructions

./configure

make

sudo make install

The build conditions can be adjusted via the usual environment variables. To compile an optimized "release" build:

./configure CXXFLAGS="-O3 -DNDEBUG"

To compile a debugger-friendly build:

./configure CXXFLAGS="-O0 -g"

To change the compiler, set the C and C++ compiler variables:

./configure CC=gcc CXX=g++

Compiling unit tests and examples

To compile unit testing suite and example programs

make check

or

cd test

make check

Note that the library must be built prior to "make check", but you do not have to install the library prior ot "make check". The examples and unit tests are statically-linked to the version of the library that will be found in src/.libs after a "make" command. I do this so that one can perform unit tests without having to install the library. I use static linking here to avoid any possible confusion with an existing libsequence installation.

Running the unit tests

cd test && sh runTests.sh

More complex installation scenarios

Some users may not have the dependent libraries installed in the standard locations on their systems. Note that "standard" means wherever the compiler system looks for header files during compilation and libraries during linking. This scenario is common on OS X systems where users have used some sort of "system" to install various libraries rather than installing from source directly. In order to accomodate such situations, the user must provide the correct path to the include and lib directories. For example, assume that the dependend libraries are in /opt on your system. You would install libsequence as follows:

CPPFLAGS=-I/opt/include LDFLAGS="$LDFLAGS -l/opt/lib" ./configure

make

sudo make install

Note that the modification of LDFLAGS prepends the current value of LDFLAGS if it exists. This allows for scenarios where the system's search path for libraries may have been modified by the user or sysadmin via a modification of that shell variable. (One could also do the same with CPPFLAGS, FYI.)

Installing libsequence locally

If you do not have permission to "sudo make install", you can install the library in your $HOME:

./configure –prefix=$HOME

Then, when compiling any program using libsequence, you need to add

-I$HOME/include

to any compilation commands and

-L$HOME/lib -Wl,-rpath,$HOME/lib

to any linking commands.

When running programs linking to any of the above run-time libraries, and depending on your system, you may also need to adjust variables like LD_LIBRARY_PATH to prepend $HOME/lib to them, etc., but you'll need to figure that out on case-by-case basis, as different systems can behave quite differently.

Installation via Bioconda

The above command will give you the most recent stable release on OS X or Linux.

Using libsequence to compile other programs

If libsequence is not installed in a standard path, then you must provide the appropriate include (-I) and link path (-L) commands to your compiler. This may be done in various ways, e.g., via a configure script or your own Makefile.

A program that depends on libsequence must provide at least the following libraries to the linker: